摘要
HeparinwascovalentlyimmobilizedontopolyurethanesurfaceviaaPEGspacerbyamicrowave-assistedapproachtoimprovebloodcompatibility.Firstly,amino-terminatedpoly(ethyleneglycol)(APEG)wasrapidlygraftedontoPUsurfacewithin20minbyatwo-stepmethodinvolvingmicrowave-assistedMDI-functionalizationandsubsequentmicrowave-assistedAPEGcoupling.Then,heparinwascovalentlyimmobilizedthroughanamidelinkagebythedirectcouplingofthecarboxylicacidofheparinwiththeaminogroupofAPEGonPUsurfaceusingcarbodiimidecouplingreaction.ThesurfacestructureandpropertieswerecharacterizedbyX-rayphotoelectronspectroscopy(XPS),atomicforcemicroscopy(AFM)andwatercontactanglemeasurements.Theresultsrevealedthatheparin-immobilizedPUsurfacehadslightlyincreasedroughnessandsignificantlyimprovedhydrophilicityincomparisontotheoriginalPUsurface.Theanticoagulantactivityoffilmswasevaluatedbywholebloodclottingtime(CT)andprothrombintime(PT).Complementactivationwasassessedbydetectingcomplementfragment3aconcentrationsofserumexposedtothefilms.Theresultsrevealedthatthemicrowave-assistedheparin-immobilizedPUfilmshadexcellentantithrombogenicityandsuppressedcomplementactivation,indicatingimprovedbloodcompatibility.
出版日期
2014年05月15日(中国期刊网平台首次上网日期,不代表论文的发表时间)